| 1. | Gate operations of qubit and conformal mapping
量子比特的门操作与共形映照 |
| 2. | Thermal entanglement in two - qubit heisenberg xy model
模型中的热纠缠 |
| 3. | Teleportation of a two - qubit unknown atomic state through raman interaction
相互作用传送两比特的未知原子态 |
| 4. | The entanglement between the boundary qubits in the five - qubit heisenberg xx open chain
开链中边界量子位之间的纠缠 |
| 5. | The period of oscillation of qubit in a parabolic linear bound potential quantum dot
抛物线性限制势量子点量子比特的振荡周期 |
| 6. | Lastly , a scheme of teleporting a two - qubit unknown atomic state is proposed
最后提出了一种隐形传送两比特未知原子态方案。 |
| 7. | Implementing a non - local swap operation on two entangled pairs by a three - qubit entangled state and a bell state
态作量子信道实现非局域的态交换 |
| 8. | In this scheme , a three - particle entangled state is used as quantum channel to teleport a two - qubit atomic state
在此方案中,用一个三粒子纠缠态作为量子信道,传送两比特未知原子态。 |
| 9. | A qubit , in contrast , can be in a so - called superposition state , which entails proportions of 0 and 1 coexisting together
一个普通的古典位元只能是0或1 ;标准的微晶片架构很严谨地在执行这种古典二分法。 |
| 10. | Whichever measurement you choose erases all the information in the qubit except for the single bit that the measurement uncovers
不管你选择哪种测量方式,你都会把原先存在量子位元中的资讯抹掉,留下的就是所测量到的位元。 |
